NAME
IPAddressRange_new
,
IPAddressRange_free
,
d2i_IPAddressRange
,
i2d_IPAddressRange
,
IPAddressOrRange_new
,
IPAddressOrRange_free
,
d2i_IPAddressOrRange
,
i2d_IPAddressOrRange
,
IPAddressChoice_new
,
IPAddressChoice_free
,
d2i_IPAddressChoice
,
i2d_IPAddressChoice
,
IPAddressFamily_new
,
IPAddressFamily_free
,
d2i_IPAddressFamily
,
i2d_IPAddressFamily
—
RFC 3779 IP address prefixes and
ranges
SYNOPSIS
#include
<openssl/x509v3.h>
IPAddressRange *
IPAddressRange_new
(void);
void
IPAddressRange_free
(IPAddressRange
*range);
IPAddressRange *
d2i_IPAddressRange
(IPAddressRange
**range, const unsigned char **der_in,
long length);
int
i2d_IPAddressRange
(IPAddressRange
*range, unsigned char **der_out);
IPAddressOrRange *
IPAddressOrRange_new
(void);
void
IPAddressOrRange_free
(IPAddressOrRange
*aor);
IPAddressOrRange *
d2i_IPAddressOrRange
(IPAddressOrRange
**aor, const unsigned char **der_in,
long length);
int
i2d_IPAddressOrRange
(IPAddressOrRange
*aor, unsigned char **der_out);
IPAddressChoice *
IPAddressChoice_new
(void);
void
IPAddressChoice_free
(IPAddressChoice
*ac);
IPAddressChoice *
d2i_IPAddressChoice
(IPAddressChoice
**ac, const unsigned char **der_in,
long length);
int
i2d_IPAddressChoice
(IPAddressChoice
*ac, unsigned char **der_out);
IPAddressFamily *
IPAddressFamily_new
(void);
void
IPAddressFamily_free
(IPAddressFamily
*af);
IPAddressFamily *
d2i_IPAddressFamily
(IPAddressFamily
**af, const unsigned char **der_in,
long length);
int
i2d_IPAddressFamily
(IPAddressFamily
*af, unsigned char **der_out);
DESCRIPTION
IPAddressRange, IPAddressOrRange, IPAddressChoice, and IPAddressFamily are building blocks of the IPAddrBlocks type representing the RFC 3779 IP address delegation extension.
Per RFC 3779, section 2.1.1, an IPv4 or an IPv6 address is encoded in network byte order in an ASN.1 BIT STRING of bit size 32 or 128 bits, respectively. The bit size of a prefix is its prefix length; all insignificant zero bits are omitted from the encoding. Per section 2.1.2, an address range is expressed as a pair of BIT STRINGs where all the least significant zero bits of the lower bound and all the least significant one bits of the upper bound are omitted.
The library provides no API for directly converting an IP address
or prefix (in any form) to and from an
ASN1_BIT_STRING. It also provides no API for directly
handling ranges. The ASN1_BIT_STRING internals are
subtle and directly manipulating them in the context of the RFC 3779 API is
discouraged. The bit size of an ASN1_BIT_STRING
representing an IP address prefix or range is eight times its
length member minus the lowest three bits of its
flags, provided the
ASN1_STRING_FLAG_BITS_LEFT
flag is set.
The IPAddressRange type defined in RFC 3779 section 2.2.3.9 is implemented as
typedef struct IPAddressRange_st { ASN1_BIT_STRING *min; ASN1_BIT_STRING *max; } IPAddressRange;
It represents the closed range [min,max] of IP addresses between min and max, where min should be strictly smaller than max and the range should not be expressible as a prefix.
IPAddressRange_new
()
allocates a new IPAddressRange object with allocated,
empty min and max, thus
representing the entire address space invalidly as a non-prefix.
IPAddressRange_free
()
frees range including any data contained in it. If
range is NULL
, no action
occurs.
There is no dedicated type representing the IPAddress type defined in RFC 3779 section 2.2.3.8. The API uses ASN1_BIT_STRING for this.
The IPAddressOrRange type defined in RFC 3779 section 2.2.3.7 is implemented as
typedef struct IPAddressOrRange_st { int type; union { ASN1_BIT_STRING *addressPrefix; IPAddressRange *addressRange; } u; } IPAddressOrRange;
representing an individual address prefix or an address range. The
type member should be set to
IPAddressOrRange_addressPrefix
or
IPAddressOrRange_addressRange
to indicate which
member of the union u is valid.
IPAddressOrRange_new
()
returns a new IPAddressOrRange object with invalid
type and NULL
members of the union
u.
IPAddressOrRange_free
()
frees aor including any data contained in it, provided
type is set correctly. If aor is
NULL
, no action occurs.
In order to express a list of address prefixes and address ranges, RFC 3779 section 2.2.3.6 uses an ASN.1 SEQUENCE, which is implemented via a STACK_OF(3) construction over IPAddressOrRange:
typedef STACK_OF(IPAddressOrRange) IPAddressOrRanges;
Since an
IPAddressOrRanges object should be sorted in a
specific way (see
X509v3_addr_canonize(3)), a comparison function is needed for
a correct instantiation with
sk_new(3).
The
v4IPAddressOrRange_cmp
()
and
v6IPAddressOrRange_cmp
()
functions are not directly exposed and not easily accessible from outside
the library, and they are non-trivial to implement. It is therefore
discouraged to use IPAddressOrRanges objects that are
not part of an IPAddrBlocks object.
The “inherit” marker from RFC 3779 section 2.2.3.5 is implemented as ASN1_NULL. It has no dedicated type or API and can be instantiated with ASN1_NULL_new(3).
The IPAddressChoice type defined in RFC 3779 section 2.2.3.4 is implemented as
typedef struct IPAddressChoice_st { int type; union { ASN1_NULL *inherit; IPAddressOrRanges *addressesOrRanges; } u; } IPAddressChoice;
where the type member should be set to
IPAddressChoice_inherit
or
IPAddressChoice_addressesOrRanges
to indicate
whether a given IPAddressChoice object represents an
inherited list or an explicit list.
IPAddressChoice_new
()
returns a new IPAddressChoice object with invalid type
and NULL
members of the union
u.
IPAddressChoice_free
()
frees ac including any data contained in it, provided
type is set correctly.
The addressFamily element defined in RFC
3779 section 2.2.3.3 is implemented as an
ASN1_OCTET_STRING and it contains two or three octets.
The first two octets are always present and represent the address family
identifier (AFI) in network byte order. The optional subsequent address
family identifier (SAFI) occupies the third octet. For IPv4 and IPv6,
IANA_AFI_IPV4
and
IANA_AFI_IPV6
are predefined. Other AFIs are not
supported by this implementation.
The IPAddressFamily type defined in RFC 3779 section 2.2.3.2 is implemented as
typedef struct IPAddressFamily_st { ASN1_OCTET_STRING *addressFamily; IPAddressChoice *ipAddressChoice; } IPAddressFamily;
The addressFamily member indicates the address family the ipAddressChoice represents.
IPAddressFamily_new
()
returns a new IPAddressFamily object with empty
addressFamily and invalid
ipAddressChoice members.
IPAddressFamily_free
()
frees af including any data contained in it. If
af is NULL
, no action
occurs.
The IPAddrBlocks type defined in RFC 3779 section 2.2.3.1 uses an ASN.1 SEQUENCE, which is implemented via a STACK_OF(3) construction over IPAddressFamily:
typedef STACK_OF(IPAddressFamily) IPAddrBlocks;
It can be instantiated with
sk_IPAddressFamily_new_null
()
and the correct sorting function can be installed with
X509v3_addr_canonize(3). To populate it, use
X509v3_addr_add_prefix(3) and related functions.
d2i_IPAddressRange
(),
i2d_IPAddressRange
(),
d2i_IPAddressOrRange
(),
i2d_IPAddressOrRange
(),
d2i_IPAddressChoice
(),
i2d_IPAddressChoice
(),
d2i_IPAddressFamily
(),
and
i2d_IPAddressFamily
()
decode and encode ASN.1 IPAddressRange,
IPAddressOrRange,
IPAddressChoice, and
IPAddressFamily objects. For details about the
semantics, examples, caveats, and bugs, see
ASN1_item_d2i(3). There is no easy way of ensuring that the encodings
generated by these functions are correct, unless they are applied to objects
that are part of a canonical IPAddrBlocks structure,
see
X509v3_addr_is_canonical(3).
RETURN VALUES
IPAddressRange_new
() returns a new
IPAddressRange object with allocated, empty members,
or NULL
if an error occurs.
IPAddressOrRange_new
() returns a new,
empty IPAddressOrRange object or
NULL
if an error occurs.
IPAddressChoice_new
() returns a new, empty
IPAddressChoice object or NULL
if an error occurs.
IPAddressFamily_new
() returns a new
IPAddressFamily object with allocated, empty members,
or NULL
if an error occurs.
The decoding functions
d2i_IPAddressRange
(),
d2i_IPAddressOrRange
(),
d2i_IPAddressChoice
(), and
d2i_IPAddressFamily
() return an
IPAddressRange, an
IPAddressOrRange, an
IPAddressChoice, or an
IPAddressFamily object, respectively, or
NULL
if an error occurs.
The encoding functions
i2d_IPAddressRange
(),
i2d_IPAddressOrRange
(),
i2d_IPAddressChoice
(), and
i2d_IPAddressFamily
() return the number of bytes
successfully encoded or a value <= 0 if an error occurs.
SEE ALSO
ASIdentifiers_new(3), ASN1_BIT_STRING_new(3), ASN1_OCTET_STRING_new(3), ASN1_OCTET_STRING_set(3), crypto(3), X509_new(3), X509v3_addr_add_inherit(3), X509v3_addr_inherits(3), X509v3_addr_subset(3)
STANDARDS
RFC 3779: X.509 Extensions for IP Addresses and AS Identifiers:
- section 2.1.1: Encoding of an IP Address or Prefix
- section 2.1.2: Encoding of a Range of IP Addresses
- section 2.2.3: Syntax
- section 2.2.3.1: Type IPAddrBlocks
- section 2.2.3.2: Type IPAddressFamily
- section 2.2.3.3: Element addressFamily
- section 2.2.3.4: Element ipAddressChoice and Type IPAddressChoice
- section 2.2.3.5: Element inherit
- section 2.2.3.6: Element addressesOrRanges
- section 2.2.3.7: Type IPAddressOrRange
- section 2.2.3.8: Element addressPrefix and Type IPAddress
- section 2.2.3.9: Element addressRange and Type IPAddressRange
ITU-T Recommendation X.690, also known as ISO/IEC 8825-1: Information technology - ASN.1 encoding rules: Specification of Basic Encoding Rules (BER), Canonical Encoding Rules (CER) and Distinguished Encoding Rules (DER), section 8.6: Encoding of a bitstring value
HISTORY
These functions first appeared in OpenSSL 0.9.8e and have been available since OpenBSD 7.1.
BUGS
As it stands, the API is barely usable due to missing convenience accessors, constructors and destructors and due to the complete absence of API that checks that the individual building blocks are correct. Extracting information from a given object can be done relatively safely. However, constructing objects is very error prone, be it by hand or using the bug-ridden X509v3_addr_add_inherit(3) API.
RFC 3779 has element “addressesOrRanges”. Its type in this API is IPAddressOrRanges.